Interleukin 6 Gene Transfection into Lewis Lung Carcinoma Tumor Cells Suppresses the Malignant Phenotype and Confers Immunotherapeutic Competence against Parental Metastatic Cells

To investigate the influence of interleukin 6 (IL-6) production on malignancy of tumor cells we transfected cells of the high-metastatic, low-immunogenic D122 clone of the Lewis lung carcinoma with a mammalian expression vector containing the human IL-6 complementary DNA. In vitro, IL-6 positive transfectants showed growth inhibition that was directly correlated with the levels of IL-6 production. The in vitro growth arrest did not seem to be a function of an autocrine system mediated via the secreted human IL-6 acting on the tumor cell surface receptors since neutralizing antibodies to human IL-6 did not prevent the growth inhibition. Neither did exogenous human recombinant IL-6 affect the growth of D122 cells. In vivo, IL-6 positive transfectants showed reduction of tumorigenicity and significant suppression of metastatic competence in syngeneic, immunocompetent mice. In mature T-cell deficient nude mice, the IL-6 transfectants showed some arrest of local growth but no suppression of lung metastasis. It seems therefore that the reduction of metastatic competence of IL-6 transfectants is primarily a function of stimulation by the transfectants of host T-cell immune responses. Immunization with inactivated high-positive IL-6 transfectants induced high levels of anti-tumor cytotoxic T-lymphocytes and protected mice against metastatic growth of a subsequent graft of parental tumor cells. Moreover, reduction of metastatic growth of parental highly met-astatic D122 cells was also achieved when immunization of mice was begun after establishment of the primary parental tumors. Thus, inactivated IL-6 transfectants were effective when used as a cellular vaccine for experimental immunotherapy of metastasis.